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A brief question to do mainly with understanding how pointers work with arrays in this example:

char *lineptr[MAXLENGTH]

Now I understand this is the same as char **lineptr as an array in itself is a pointer.

My question is how it works in its different forms/ de-referenced states such as:


In each of those states, whats happening, what does each state do/work as in code?

Any help is much appreciated!

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up vote 5 down vote accepted

Now I understand this is the same as char **lineptr as an array in itself is a pointer.

No, an array is not the same as a pointer. See the C FAQ:


This is the array itself. In most situations, it decays into a pointer to its first element (i.e. &lineptr[0]). So its type is either int *[MAXLENGTH] or int **.


This dereferences the pointer to the first element, so it's the value of the first element (i.e. it's the same as lineptr[0]). Its type is int *.


This dereferences the first elements (i.e. it's the same as *lineptr[0]). Its type is int.


I don't think this is valid syntax (in this context).

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I am trying to create an Array of Arrays, i.e. an Array, whereby each element is an array of characters, a string. *lineptr[] is needed in this case? (I am trying to follow the K and R book (page 98)) – PnP Dec 29 '11 at 0:09
@user1048116: Yes, each element of lineptr could be a pointer to a char array. – Oliver Charlesworth Dec 29 '11 at 0:13

lineptr is the /array/ itself.

*lineptr is the first element of the array, a char *

**lineptr is the char pointed to by the first element of the array

*lineptr[N] is the char pointed to by the Nth element of the array

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Ok, first things first.

Arrays are not pointers. They simply decompose to pointers when needed. Think of an array as a pointer that already has some data malloced/alloca'ed to it.

lineptr : This simply returns the array. Not much to say.

*lineptr : This is the same as accessing your array's first location. *lineptr = lineptr[0]. This just happens to return a char *

**lineptr: This is accessing the array's first location, an then dereferencing that location. **lineptr = *(lineptr[0]). Since your array holds char* this will return the char stored at the char * in slot 0 of the array.

*lineptr[i] : This dereferences the char* stored at i. So the char pointed to by lineptr[i] is returned.

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Except when it is the operand of the sizeof or unary & operator, or is a string literal being used to initialize another array in a declaration, an expression of type "N-element array of T" will be replaced with ("decay to") an expression of type "pointer to T", and the value of the expression will be the address of the first element.

The expression lineptr has type "MAXLENGTH-element array of char *". Under most circumstances, it will be replaced with an expression of type char **. Here's a handy table showing all the possibilities:

Expression      Type                  Decays to  Evaluates to
----------      ----                  ---------  ------------
  lineptr       char *[MAXLENGTH]     char **    address of first element in array
 &lineptr       char *(*)[MAXLENGTH]  n/a        address of array
 *lineptr       char *                n/a        value of first element
  lineptr[i]    char *                n/a        value of i'th element 
 &lineptr[i]    char **               n/a        address of i'th element 
 *lineptr[i]    char                  n/a        value of character pointed to by i'th element
**lineptr       char                  n/a        value of character pointed to by zero'th element

Note that lineptr and &lineptr evaluate to the same value (the address of an array is the same as the address of its first element), but their types are different (char ** vs. char *(*)[MAXLENGTH]).

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